In this Letter, we investigate uniformly rotating, homogeneous, and axisymmetric relativistic fluid bodies with a toroidal shape. The corresponding field equations are solved by means of a multidomain spectral method, which yields highly accurate numerical solutions. For a prescribed, sufficiently large ratio of inner to outer coordinate radius, the toroids exhibit a continuous transition to the extreme Kerr black hole. Otherwise, the most relativistic configuration rotates at the mass-shedding limit. For a given mass density, there seems to be no bound to the gravitational mass as one approaches the black hole limit and a radius ratio of unity
We construct solutions to the relativistic Navier-Stokes equations that describe the long wavelength...
We investigate new paths to black hole formation by considering the general relativistic evolution o...
We give a thorough description of the shape of rotating axisymmetric stable black-hole (apparent) ho...
In this Letter, we investigate uniformly rotating, homogeneous, and axisymmetric relativistic fluid ...
In this paper, we discuss general relativistic, self-gravitating and uniformly rotating perfect flui...
Highly accurate numerical solutions to the problem of Black Holes surrounded by uniformly rotating r...
We present a thorough investigation of sequences of uniformly rotating, homogeneous axisymmetric New...
By means of a highly accurate, multi-domain, pseudo-spectral method, we investigate the solution spa...
Quasi-stationary (i.e. parametric) transitions from rotating equilibrium configurations of fluid bod...
We numerically investigate limits of a two-parameter family of stationary solutions to the Einstein-...
Recently, it was shown that the extreme Kerr black hole is the only candidate for a black hole limit...
This paper provides a brief summary of a talk on rings surrounding Black Holes that was given at the...
It is shown numerically that strange matter rings permit a continuous transition to the extreme Kerr...
The Rayleigh criterion is used to study the stability of circular orbits of particles moving around ...
The Rayleigh criterion is used to study the stability of circular orbits of particles moving around ...
We construct solutions to the relativistic Navier-Stokes equations that describe the long wavelength...
We investigate new paths to black hole formation by considering the general relativistic evolution o...
We give a thorough description of the shape of rotating axisymmetric stable black-hole (apparent) ho...
In this Letter, we investigate uniformly rotating, homogeneous, and axisymmetric relativistic fluid ...
In this paper, we discuss general relativistic, self-gravitating and uniformly rotating perfect flui...
Highly accurate numerical solutions to the problem of Black Holes surrounded by uniformly rotating r...
We present a thorough investigation of sequences of uniformly rotating, homogeneous axisymmetric New...
By means of a highly accurate, multi-domain, pseudo-spectral method, we investigate the solution spa...
Quasi-stationary (i.e. parametric) transitions from rotating equilibrium configurations of fluid bod...
We numerically investigate limits of a two-parameter family of stationary solutions to the Einstein-...
Recently, it was shown that the extreme Kerr black hole is the only candidate for a black hole limit...
This paper provides a brief summary of a talk on rings surrounding Black Holes that was given at the...
It is shown numerically that strange matter rings permit a continuous transition to the extreme Kerr...
The Rayleigh criterion is used to study the stability of circular orbits of particles moving around ...
The Rayleigh criterion is used to study the stability of circular orbits of particles moving around ...
We construct solutions to the relativistic Navier-Stokes equations that describe the long wavelength...
We investigate new paths to black hole formation by considering the general relativistic evolution o...
We give a thorough description of the shape of rotating axisymmetric stable black-hole (apparent) ho...